Optoisolators - Transistor, Photovoltaic Output

Part Number	Description / PDF	Quantity
HCPL-0452-500E Broadcom	OPTOISOLATOR 3.75KV TRANS 8-SO	2134
HCPL-0501-500E Broadcom	OPTOISO 3.75KV TRANS W/BASE 8SO	11728
HCPL-4503 Broadcom	OPTOISOLATOR 3.75KV TRANS 8-DIP	0
ACPL-M49T-560E Broadcom	OPTOISOLATOR 4KV TRANSISTOR	0
ACPL-K376-000E Broadcom	OPTOISO 5KV DARL 8-SO STRETCHED	0
HCPL-M453 Broadcom	OPTOISO 3.75KV TRANSISTOR 6SOIC	0
HCNR200#300 Broadcom	OPTOISO 5KV LINEAR PHVOLT 8SMD	0
HCPL-2531-520E Broadcom	OPTOISO 5KV 2CH TRANSISTOR 8SMD	0
CNY17-4-560E Broadcom	OPTOISO 5KV TRANS W/BASE 6SMD	0
HCPL-2533-000E Broadcom	OPTOISO 3.75KV 2CH TRANS 8-DIP	0
HCPL-J454-500E Broadcom	OPTOISO 3.75KV TRANSISTOR 8SMD	0
4N25-000E Broadcom	OPTOISO 2.5KV TRANS W/BASE 6DIP	0
HCPL-817-000E Broadcom	OPTOISOLATOR 5KV TRANSISTOR 4DIP	7319
HCPL-0500 Broadcom	OPTOISO 3.75KV TRANS W/BASE 8SO	0
ACPL-P454-560E Broadcom	OPTOISOLATOR 3.75KV TRANS 6SOIC	0
HCPL-4502 Broadcom	OPTOISOLATOR 3.75KV TRANS 8-DIP	0
HCPL-4502-000E Broadcom	OPTOISOLATOR 3.75KV TRANS 8-DIP	0
HCPL-J454-000E Broadcom	OPTOISO 3.75KV TRANSISTOR 8DIP	417
ACPL-214-56AE Broadcom	OPTOISOLATOR 3KV TRANS 4SOIC	0
ACPL-827-300E Broadcom	OPTOISOLATOR 5KV 2CH TRANS 8SMD	943

Optoisolators - Transistor, Photovoltaic Output

1. Overview

Photovoltaic output transistor optoisolators are semiconductor devices that use light to transfer electrical signals between isolated circuits. They consist of a light-emitting diode (LED) and a photovoltaic transistor, which are separated by an isolation barrier. These devices enable galvanic isolation while maintaining signal integrity, making them critical for safety and noise reduction in high-voltage applications. Their importance spans industries like industrial automation, renewable energy systems, and medical electronics.

2. Main Types and Functional Classification

Type	Functional Features	Application Examples
Single-Channel Phototransistor	Basic isolation with 1:1 signal transfer ratio	General-purpose logic isolation
High-Voltage Photovoltaic	Capable of >5000V isolation with stacked photodiodes	Power supply feedback circuits
High-Speed Phototransistor	Response time <10 s with optimized junction design	Communication interface isolation
Dual-Direction Photocell	Bidirectional current control with complementary outputs	Motor driver protection circuits

3. Structure and Composition

Typical construction includes:

GaAlAs LED emitter with blue-shifted wavelength
NPN/PNP phototransistor with textured light-trapping surface
Dielectric isolation layer (usually SiO2 or polyimide) rated for 8000V/ m
Dual in-line package (DIP) or surface-mount (SMD) housing with IEC 60664-1 certification

4. Key Technical Specifications

Parameter	Significance	Typical Values
Isolation Voltage (Viorm)	Determines maximum voltage separation capability	2500-8000Vrms
Current Transfer Ratio (CTR)	Measures efficiency of signal conversion	50-600%
Rise/Fall Time	Defines maximum operational speed	2-50 s
Dark Current (ICEX)	Leakage current under no-light conditions	<100nA
Operating Temperature	Determines thermal stability range	-55 C to +125 C

5. Application Fields

Key application areas include:

Industrial automation (PLC I/O modules, motor controllers)
Renewable energy (solar inverters, battery management systems)
Medical equipment (patient monitoring isolation barriers)
Telecom infrastructure (optical network transceivers)
Smart grid systems (voltage regulator control circuits)

6. Leading Manufacturers and Products

Manufacturer	Representative Product	Key Specifications
Avago Technologies	HCPL-3120	1500V isolation, 100ns response time
Vishay Semiconductors	CNY17-3	CTR 100-200%, 5300V isolation
ON Semiconductor	FOD817	5000Vrms, 80-160% CTR
Toshiba Electronics	TLP521	2500V, 50-600% CTR range

7. Selection Recommendations

Consider these factors:

Match isolation voltage rating with system's maximum transient voltage
Select CTR range based on driver circuit capability
For high-speed applications, prioritize devices with integrated base resistors
Medical applications require reinforced insulation and low leakage current
Consider temperature derating for automotive/power electronics use

Case Study: In solar inverters, ON Semiconductor's FOD817 provides reliable 5000V isolation between control and power stages while maintaining 100kHz switching capability.

8. Industry Trends

Current trends include:

Development of UV-enhanced photovoltaic cells for higher efficiency
Integration with on-chip isolation capacitors for hybrid isolation solutions
Miniaturization for EV battery management systems (package sizes <5mm )
Increased adoption of SiC/GaN compatible optoisolators for wide-bandgap power devices
Advancements in reliability testing standards (e.g., 60 years@150 C operation)